Citas bibligráficas
Alvarado, W., (2023). Implementación del sistema de iluminación en oficinas con mamparas de vidrio, mediante un sistema domótico mixto [Trabajo de suficiencia profesional, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/26935
Alvarado, W., Implementación del sistema de iluminación en oficinas con mamparas de vidrio, mediante un sistema domótico mixto [Trabajo de suficiencia profesional]. PE: Universidad Nacional de Ingeniería; 2023. http://hdl.handle.net/20.500.14076/26935
@misc{renati/1751761,
title = "Implementación del sistema de iluminación en oficinas con mamparas de vidrio, mediante un sistema domótico mixto",
author = "Alvarado Miranda, Walter Joel",
publisher = "Universidad Nacional de Ingeniería",
year = "2023"
}
At present, many existing buildings, both in the residential and corporate sectors, are being intervened in order to be able to house control systems, which allow their occupants a greater degree of comfort, energy savings and interaction; local and remote control, among others. This concept of being able to control, automate, and monitor the systems of a home is called home automation. Automated building is a classic term used to refer to a building or house that has some type of automation. So that, when faced with a planned request, it gives an appropriate response within a limited and ordered range to the corresponding mechanism so that it can act accordingly. It includes three areas: comfort, energy saving and security. It arises from the direct application of automation, which began in the 19th century, with industrial development. In fact, the first control systems applied to buildings were the same automata that were applied to industry. (Romero, Vázquez, De Castro, 2011, p. 22) In the 1960s, for a building to be called modern, it had to have at least stairs and automated doors, elevators, air conditioning, and fire and intruder detection systems. In the 1990s, intelligent buildings began to be more numerous and they tried to integrate all the systems in the same central. (Romero et al., 2011, p. 33). This Professional Sufficiency Work describes the home automation implementation on a building floor that had a change of use. Which was initially conceived as a collaborative, open work floor, without partitions. Subsequently, work was carried out to create environments through glass partitions, to be used as sectorized offices. Given this modification of the space, it was necessary to carry out a reinstallation of the electrical lighting installations, installation of control devices such as controls, actuators, among others. In Chapter I, the background is presented, in which the guidelines of the evolution of the activities that the human being has been developing in closed environments are exposed, controlling the lighting of the premises manually and using conventional technology. In the problematic reality, the various difficulties and challenges encountered when technological implementation projects for lighting control and multiple devices of daily living are presented. The objectives show the intention of disseminating and illustrating the experience obtained by being part of the team that formulated, designed, and executed a home automation system with certain peculiar characteristics, where it was not possible to use wired local controls. These solutions can be of great help in the civil engineering sector, especially when interventions are carried out on existing buildings to provide them with control systems not originally considered in the original project, being able to even manage a building, through the BMS System (Building Management System), adding the appropriate devices or gateways for this purpose. In Chapter II, the theoretical and conceptual framework is described in which the principles, definitions, topologies and types of systems that exist, their benefits and restrictions are described. In Chapter III, the description, scope and impact of the project of which it was part throughout its process, its initial state, the technical proposal, planning, technical aspects, descriptive memory, physical components of the installation, metering and budget are presented. Chapter IV deals with the execution of the project, where the construction process is described, in which the items developed are presented step by step in chronological order until the configuration, testing and delivery process. In Chapter V, there is a comparison of the direct cost of the most influential items in the budget, where a brief analysis is made between the assumption that the entire project would have been with a wired data transmission system, in comparison with a system radiofrequency wireless of the same brand and supplier; this in order to have a reference of how much is the percentage difference of one technology with the other and incidence in partitioning items to be able to carry out the wiring and installation of controls in wall.
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